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2016 in paleomammalogy

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From Wikipedia, the free encyclopedia

Overview of the events of 2016 in paleomammalogy

List of years in paleomammalogy

In paleontology: 2013; 2014; 2015; 2016; 2017; 2018; 2019

In paleobotany: 2013; 2014; 2015; 2016; 2017; 2018; 2019

In arthropod paleontology: 2013; 2014; 2015; 2016; 2017; 2018; 2019

In paleoentomology: 2013; 2014; 2015; 2016; 2017; 2018; 2019

In paleoichthyology: 2013; 2014; 2015; 2016; 2017; 2018; 2019

In paleomalacology: 2013; 2014; 2015; 2016; 2017; 2018; 2019

In reptile paleontology: 2013; 2014; 2015; 2016; 2017; 2018; 2019

In archosaur paleontology: 2013; 2014; 2015; 2016; 2017; 2018; 2019

Thispaleomammalogy list records newfossil mammal taxa that weredescribed during the year 2016, as well as notes other significant paleomammalogy discoveries and events which occurred during that year.

Metatherians

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Metatherian research

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A near-complete skull, a snout and twomaxillae assigned to the speciesDidelphodon vorax are described from theLate Cretaceous Hell Creek Formation (Montana andNorth Dakota,United States) by Wilsonet al. (2016).^[1]
Description of a new specimen ofMalleodectes mirabilis and a study of phylogenetic relationships of this species is published by Archeret al. (2016).^[2]
A study on the shape of theelbow joint ofThylacoleo carnifex and its implications for the predatory behavior of the species is published by Figueirido, Martín-Serra & Janis (2016).^[3]
Claw marks are described from the Tight Entrance Cave (southwesternAustralia) by Arman & Prideaux (2016), who interpret the marks as left by the marsupial lions.^[4]
A study evaluating whether the climate changes were the primary driver ofPleistocene megafauna extinctions in Australia is published by Saltréet al. (2016).^[5]

New taxa

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Name	Novelty	Status	Authors	Age	Unit	Location	Notes
Chaeropus baynesi^[6]^[7]	Sp. nov	Valid	Travouillon	Late Pliocene to early Pleistocene	Moorna Formation	Australia	A relative of thepig-footed bandicoot.
Chimeralestes^[8]	Gen. et sp. nov	Valid	Engelman, Anaya & Croft	Miocene	Honda Group	Bolivia	A palaeothentidpaucituberculate. Genus includes new speciesC. ambiguus.
Cookeroo^[9]	Gen. et 2 sp. nov	Valid	Butleret al.	Oligocene-Miocene	Riversleigh World Heritage Area	Australia	A member ofMacropodidae. Genus includesCookeroo bulwidarri andCookeroo hortusensis.
Ektopodon tommosi^[10]	Sp. nov	Valid	Pledge	Late Oligocene	Namba Formation	Australia	A member ofPhalangeroidea belonging to the familyEktopodontidae.
Gumardee richi^[11]	Sp. nov	Valid	Travouillonet al.	Early Miocene	Riversleigh World Heritage Area	Australia	A member ofPotoroinae.
Gumardee springae^[11]	Sp. nov	Valid	Travouillonet al.	Late Oligocene	Riversleigh World Heritage Area	Australia	A member ofPotoroinae.
Gurbanodelta^[12]	Gen. et sp. nov		Niet al.	Late Paleocene (Gashatan)		China	A probable member of thedeltatheroidan familyDeltatheridiidae. The type species isG. kara.
Kutjamarcoot^[13]	Gen. et sp. nov	Valid	Chamberlainet al.	Early Miocene	Wipajiri Formation	Australia	Abandicoot. The type species isKutjamarcoot brevirostrum.
Lemdubuoryctes^[14]	Gen. et sp. nov	Valid	Kear, Aplin & Westerman	Latest Pleistocene to Holocene		Indonesia	Originally described as a member of thestem group ofPeramelemorphia. The type species isL. aruensis. Travouillon & Phillips (2018) transferred this species to the genusPeroryctes.^[15]
Microleo^[16]	Gen. et sp. nov	Valid	Gillespie, Archer & Hand	Early Miocene	Riversleigh World Heritage Area	Australia	A member ofThylacoleonidae. The type species isM. attenboroughi.
Minusculodelphis modicum^[17]	Sp. nov	Valid	Oliveira, Zimicz & Goin	Itaboraian	Itaboraí Formation	Brazil	A member ofJaskhadelphyidae, a species ofMinusculodelphis.
Palaeothentes relictus^[8]	Sp. nov	Valid	Engelman, Anaya & Croft	Miocene	Honda Group	Bolivia	A palaeothentidpaucituberculate.
Palaeothentes serratus^[8]	Sp. nov	Valid	Engelman, Anaya & Croft	Miocene	Honda Group	Bolivia	A palaeothentidpaucituberculate.
Stelakoala^[18]	Gen. et sp. nov	Valid	Black	Middle Miocene	Riversleigh World Heritage Area	Australia	A member ofPhascolarctidae. The type species isS. riversleighensis.
Whollydooleya^[19]	Gen. et sp. nov	Valid	Archeret al.	Possibly middle or late Miocene		Australia	A member ofDasyuridae of uncertain phylogenetic placement. The type species isW. tomnpatrichorum.

Eutherians

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Research

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A study on the date of the origin of thePlacentalia and an analysis of the effect of theCretaceous–Paleogene extinction event on placental evolution is published by Halliday, Upchurch & Goswami (2016).^[20]
A study on the influence of the methods used to establishdivergence dates on the studies reconstructing body-size evolution of the Cretaceous and Paleogene eutherian mammals is published by Halliday & Goswami (2016).^[21]
A study on the relationship between the primary productivity of plant communities and the diversity of terrestrial large mammals in North America and Europe through theNeogene is published by Fritzet al. (2016).^[22]
Studies of the phylogenetic relationships of theglyptodonts withinXenarthra, indicating that the glyptodonts were nested within thearmadillo crown group, are published by Delsucet al. (2016)^[23] and Mitchellet al. (2016).^[24]
A description of new fossil material ofAbdounodus hamdii and a study of its phylogenetic relationships is published by Gheerbrant, Filippo & Schmitt (2016).^[25]
A description of new fossil material ofPalaeoamasia kansui and a study of phylogenetic relationships ofembrithopods is published by Erdal, Antoine & Sen (2016).^[26]
A study on the patterns ofmastication inNeogene andQuaternary proboscideans as indicated by the anatomy of their teeth is published by von Koenigswald (2016).^[27]
Part of ahumerus of a largeproboscidean, probably a member of the genusDeinotherium, is described from the Miocene ofFinland by Salonenet al., representing the northernmost record of a Miocene proboscidean fossil in the world so far.^[28]
Presence of lowerincisors is reported in immature individuals ofCuvieronius hyodon by Mothé, Ferretti & Avilla (2018).^[29]
A study on the diet ofPlatybelodon grangeri, as indicated by data frommolar microwear analysis oftooth enamel, is published by Semprebonet al. (2016).^[30]
A study on the phylogenetic relationships andmitogenomic diversity of North Americanmammoths, as well as its implications for mammoth population structure and dynamics during the latePleistocene, is published by Enket al. (2016).^[31]
A study on the timing, causes, and consequences of theHolocene extinction of the relictwoolly mammoth population fromSaint Paul Island (Alaska) is published by Grahamet al. (2016).^[32]
A study on the phylogenetic relationships of the unallocated fossil species of theOld World leaf-nosed bats, particularly Miocene species fromRiversleigh (Australia) is published by Wilsonet al. (2016).^[33]
A complete skull of themacraucheniidHuayqueriana cf.H. cristata is described from theHuayquerian Huayquerías Formation (Argentina) by Forasiepiet al. (2016).^[34]
A study on thedentaries of several juvenile specimens ofProsantorhinus germanicus from the Miocene fossillagerstätte Sandelzhausen (Germany) is published by Böhmer, Heissig & Rössner (2016), who reconstruct the tooth replacement pattern, life history and juvenile mortality profile of this taxon.^[35]
Anosteological study on thePleistocene camelid fossils reported fromAlaska andYukon, assigned to the speciesCamelops hesternus, is published by Zazulaet al. (2016).^[36]
New fossil material of the Pleistocenewildebeest-likebovidRusingoryx atopocranion is described from theRusinga Island (Kenya) by O’Brienet al. (2016), who note the presence of large, hollow, bony nasal crests in this mammal, similar to crests present inhadrosaurid dinosaurs.^[37]
A study on the age and phylogenetic relationships of latePleistocene bison fossils from North America and their implications for establishing when the Pleistocene ice free corridor along the eastern slopes of theRocky Mountains was open is published by Heintzmanet al. (2016).^[38]
Studies on the origin and evolutionary history of theEuropean bison based onancient DNA recovered from bison fossils are published by Soubrieret al. (2016)^[39] and Massilaniet al. (2016).^[40]
A study on the diet and evolution of ecologically-relevant traits in members of the genusHoplitomeryx as indicated by tooth wear,hypsodonty and body mass estimations is published by DeMiguel (2016).^[41]
Basu, Falkingham & Hutchinson (2016) present a reconstruction of the skeleton ofSivatherium giganteum and estimate adult body mass of members of the species.^[42]
A study estimating the ability of thecetaceanAmbulocetus and thedesmostyliansPaleoparadoxia,Neoparadoxia andDesmostylus to support themselves on land as indicated by the strengths of theirrib cages against vertical compression is published by Ando & Fujiwara (2016).^[43]
A study on thecochlear anatomy of axenorophid specimen from theOligocene Belgrade Formation inNorth Carolina (subsequently assigned to the genusEchovenator^[44]) and its implications for the evolution of high-frequency hearing andecholocation in early toothed whales is published by Park, Fitzgerald & Evans (2016).^[45]
Description of an earlyMiocene dolphin fromKaikōura (New Zealand), closely related toPapahu taitapu, and a study of the phylogenetic relationships ofPapahu is published by Tanaka & Fordyce (2016).^[46]
Description of a new skull of thePliocene porpoiseNumataphocoena yamashitai recovered from theHorokaoshirarika Formation (Hokkaido,Japan) and a study on the phylogenetic relationships of the species is published by Tanaka & Ichishima (2016).^[47]
A newaetiocetid specimen is described from the lateOligocene Pysht Formation (Washington,United States) by Marxet al. (2016), who interpret its tooth wear as inconsistent with the presence ofbaleen, and instead indicative ofsuction feeding.^[48]
A study on the evolution of large body size in earlybaleen whale evolution is published by Tsai & Kohno (2016).^[49]
A study on the anatomy of the ear region ofMiocaperea pulchra and its implications for the proposed origin of thepygmy right whale from thecetotheriids is published by Marx & Fordyce (2016).^[50]
A study on thebaleen microstructures found in association with the skeleton of a lateMiocene balaenopteroid whale recovered from thePisco Formation (Peru) is published by Gioncadaet al. (2016).^[51]
A study on the anatomy andpaleobiology of the EocenepangolinPatriomanis americana is published by Gaudin, Emry & Morris (2016).^[52]
A revision of the systematics of the North American members ofNimravidae is published by Barrett (2016).^[53]
A study on the bone thickness of dentary bones of the specimens ofSmilodon fatalis recovered from theLa Brea Tar Pits and its implications for the changes in the diet of the saber-toothed cats through the time-periods that are captured at this site, is published by Binder, Cervantes & Meachen (2016).^[54]
A study on the phylogenetic relationships of thecave lion, based on the first mitochondrial genome sequences for this taxon, is published by Barnettet al. (2016).^[55]
A description of newbear dog fossils from the early Miocene ofUganda andNamibia and a systematic revision of the Miocene bear dogs known from Africa is published by Morales,Pickford & Valenciano (2016).^[56]
A description of new fossil material ofMegalictis ferox and a study of phylogenetic relationships of theoligobunine mustelids is published by Valencianoet al. (2016).^[57]
A study on the feeding strategy of thearctoidKolponomos is published by Tseng, Grohe & Flynn (2016).^[58]
A study of phylogenetic relationships of bears belonging to the genusArctotherium, indicating that they were more closely related to thespectacled bear than toshort-faced bears, is published by Mitchellet al. (2016).^[59]
A study on the anatomy of the auditory region of the Pleistocene bearArctotherium tarijense is published by Arnaudoet al. (2016).^[60]
A description of the most recentcave bear remains reported so far, recovered from the Stajnia Cave (Poland), and a study on the cave bear’s extinction time is published by Bacaet al. (2016).^[61]
A study on the diet of the cave bears, as indicated by themorphology of theirmandibles, is published by van Heterenet al. (2016).^[62]
A study on the anatomy ofEnaliarctos and its implications for the evolution of tooth spacing, tooth size and pierce-feeding inpinnipeds is published by Churchill & Clementz (2016).^[63]
A study on theenamel ultrastructure in moderneared seals and extinctPelagiarctos is published by Lochet al. (2016).^[64]
Fossils of anearless seal belonging to the tribeMiroungini (the tribe containingelephant seals) are described from the late PliocenePetane Formation (New Zealand) by Boessenecker & Churchill (2016), representing the oldest record of Miroungini reported so far.^[65]
Virtualcranial endocasts of the Eocene rodentsParamys copei andParamys delicatus are described by Bertrand, Amador-Mughal and Silcox (2016).^[66]
The taxonomic revision of the fossilNew World porcupines known from North America is published by Sussmanet al. (2016), who transfer the speciesErethizon kleini Frazier (1981) andErethizon poyeri Hulbert (1997), as well as specimens previously identified asNorth American porcupines fromIrvingtonian faunas inFlorida andAguascalientes,Mexico, to the genusCoendou.^[67]
Virtual cranial endocasts of thenotharctinesNotharctus tenebrosus andSmilodectes gracilis, as well as theadapid adapiformAdapis parisiensis are reconstructed by Harringtonet al. (2016).^[68]
Eocene (Ypresian)adapoid andomomyid limb bones are described from the Vastan lignite mine (Gujarat, India) by Dunnet al. (2016).^[69]
Isolated teeth of a member of the genusCebus and a member of the genusCebuella are described from the Miocene (Mayoan)Pebas Formation (Peru) by Marivauxet al. (2016).^[70]
Fossils of the probable relative of thegorillas,Chororapithecus abyssinicus, are dated to ~8.0 Myr by Katohet al. (2016).^[71]
Fossils ofHomo floresiensis and the deposits containing them are dated to between about 100 000 and 60 000 years ago by Sutiknaet al. (2016).^[72]
Hominin fossils similar in most dimensions and morphological characteristics to those ofHomo floresiensis are described from the early Middle Pleistocene site in Flores, Indonesia by van den Berghet al. (2016).^[73]^[74]
A study on the cause of death of theAustralopithecus afarensis specimenLucy is published by Kappelmanet al. (2016).^[75]
A study on the bone structural properties of thefemur andhumerus of theAustralopithecus afarensis specimen Lucy and its implications for thelocomotor behavior and ecology of the species is published by Ruffet al. (2016).^[76]
A study on the locomotor mechanics and footprint formation of the tracemaker of the PlioceneLaetoli footprints is published by Hatala, Demes & Richmond (2016).^[77]
Pliocenehominin tracks discovered in the new site at Laetoli locality are described by Masaoet al. (2016), who estimate the height of one of the trackmakers to be about 1.65 metres, thus exceeding previous estimates forAustralopithecus afarensis.^[78]
A study on the phylogenetic relationships ofHomo naledi is published by Demboet al. (2017).^[79]
1.5-million-year-old footprint assemblages produced by at least 20 different individuals ofHomo erectus are described from multiple sites nearIleret,Kenya by Hatalaet al. (2016).^[80]
A study on the tracks ofHomo erectus from Ileret, indicating repeated use of lakeshore habitats by members of this species, is published by Roachet al. (2016).^[81]
A study on genomes of aNeanderthal and aDenisovan from theAltai Mountains in Siberia and on sequences ofchromosome 21 of two Neanderthals fromSpain andCroatia, and on their implications for the knowledge ofgene flow events between modern and archaic humans, is published by Kuhlwilmet al. (2019).^[82]

New taxa

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Xenarthrans

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Name	Novelty	Status	Authors	Age	Unit	Location	Notes
Aymaratherium^[83]	Gen. et sp. nov	Valid	Pujoset al.	Montehermosan	Umala Formation	Bolivia	A member ofNothrotheriidae. The type species isAymaratherium jeani.
Parutaetus punaensis^[84]	Sp. nov	Valid	Ciancioet al.	Middle–late Eocene	Geste Formation	Argentina	Anarmadillo belonging to the subfamilyEuphractinae; a species ofParutaetus.
Punatherium^[84]	Gen. et sp. nov	Valid	Ciancioet al.	Middle–late Eocene	Geste Formation	Argentina	Anarmadillo of uncertain phylogenetic placement. The type species isPunatherium catamarquensis.

Afrotherians

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Name	Novelty	Status	Authors	Age	Unit	Location	Notes
Aphanobelodon^[85]	Gen. et sp. nov	Valid^[86]	Wanget al.	Middle Miocene	Zhangenbao Formation	China	A member ofAmebelodontidae. The type species isA. zhaoi.
Eurybelodon^[87]	Gen. et sp. nov	Valid	Lambert	Miocene (lateClarendonian)	Juntura Formation	United States ( Oregon)	Agomphothere. The type species isEurybelodon shoshanii.
Konobelodon robustus^[88]	Sp. nov	Valid	Wanget al.	Late Miocene	Liushu Formation	China	Agomphothere, a species ofKonobelodon.
Lentiarenium^[89]	Gen. et comb. nov	Valid	Vossin Voss, Berning & Reiter	Oligocene (Chattian)	Linz-Melk Formation	Austria	A member ofSirenia belonging to the familyDugongidae. The type species is"Halitherium" cristolii Fitzinger (1842).
Prototherium ausetanum^[90]	Sp. nov	Valid	Balaguer & Alba	Eocene		Spain	A member ofDugongidae, a species ofPrototherium.
Sinomammut^[91]	Gen. et sp. nov	Valid	Mothéet al.	Late Miocene	Xihe-Lixian Basin	China	A member ofMammutidae. The type species isSinomammut tobieni.
Sinomastodon praeintermedius^[92]	Sp. nov	Valid	Wanget al.	Late Miocene	Zhaotong Formation	China	Agomphothere, a species ofSinomastodon.

Bats

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Name	Novelty	Status	Authors	Age	Unit	Location	Notes
Aegyptonycteris^[93]	Gen. et sp. nov	Valid	Simmons, Seiffert & Gunnell	Eocene (Priabonian)	Birket Qarun Formation	Egypt	An omnivorous bat belonging to the familyAegyptonycteridae. The type species isAegyptonycteris knightae.
Chambinycteris^[94]	Gen. et sp. nov	Valid	Ravelin Ravelet al.	Eocene		Tunisia	A bat of uncertain phylogenetic placement. The type species isC. pusilli.
Drakonycteris^[94]	Gen. et sp. nov	Valid	Ravelin Ravelet al.	Eocene		Algeria	A bat of uncertain phylogenetic placement. The type species isD. glibzegdouensis.
Hipposideros (Pseudorhinolophus) africanum^[94]	Sp. nov	Valid	Ravelin Ravelet al.	Eocene		Tunisia	Aroundleaf bat.
Hipposideros (Pseudorhinolophus) amenhotepos^[95]	Sp. nov	Valid	Gunnellet al.	Miocene		Egypt	Aroundleaf bat.
Khoufechia^[94]	Gen. et sp. nov	Valid	Ravelin Ravelet al.	Eocene		Tunisia	A member ofNycteridae. The type species isK. gunnelli.
?Necromantis fragmentum^[94]	Sp. nov	Valid	Ravelin Ravelet al.	Eocene		Tunisia	A member ofNecromantidae.
?Palaeophyllophora tunisiensis^[94]	Sp. nov	Valid	Ravelin Ravelet al.	Eocene		Tunisia	A member ofHipposideridae.
Premonycteris^[96]	Gen. et sp. nov	Valid	Handet al.	Eocene (lateYpresian)		France	Avesper bat. The type species isP. vesper.
Pseudovespertiliavus^[94]	Gen. et sp. nov	Valid	Ravelin Ravelet al.	Eocene		Algeria	Asac-winged bat. The type species isP. parva.
Synemporion^[97]	Gen. et sp. nov	Valid	Ziegler, Howarth & Simmons	Middle Pleistocene to late Holocene		United States ( Hawaii)	Avesper bat. The type species isSynemporion keana.
?Vespertiliavus aenigma^[94]	Sp. nov	Valid	Ravelin Ravelet al.	Eocene		Tunisia	Asac-winged bat.
Vespertiliavus kasserinensis^[94]	Sp. nov	Valid	Ravelin Ravelet al.	Eocene		Tunisia	Asac-winged bat.

Odd-toed ungulates

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Name	Novelty	Status	Authors	Age	Unit	Location	Notes
Cadurcodon maomingensis^[98]	Sp. nov	Valid	Averianovet al.	Eocene	Youganwo Formation	China	A member ofAmynodontidae.
Hipparion philippus^[99]	Sp. nov	Valid	Koufos & Vlachou	Miocene (earlyTurolian)		Greece	A member ofEquidae, a species ofHipparion.
Hipparion sithonis^[99]	Sp. nov	Valid	Koufos & Vlachou	Miocene (earlyTurolian)		Greece	A member ofEquidae, a species ofHipparion.
Pappaceras meiomenus^[100]	Sp. nov		Wanget al.	Late Early Eocene	Arshanto Formation	China	A member ofRhinocerotoidea belonging to the familyParaceratheriidae.
Propalaeotherium sudrei^[101]	Sp. nov	Valid	Remy, Krasovec & Marandat	Eocene		France	A member ofPalaeotheriidae.
Victoriaceros hooijeri^[102]	Sp. nov	Valid	Geraadset al.	Early Miocene		Kenya	Arhinoceros, tentatively assigned to the genusVictoriaceros.
Xylotitan^[103]	Gen. et sp. nov	Valid	Mihlbachler & Samuels	Eocene	Clarno Formation	United States ( Oregon)	A member ofBrontotheriidae. Genus includes new speciesX. cenosus.

Even-toed ungulates

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Name	Novelty	Status	Authors	Age	Unit	Location	Notes
Bransatochoerus^[104]	Gen. et comb. nov	Valid	Pickford			France	A member ofSuoidea belonging to the familyDoliochoeridae (previously called the Palaeochoeridae); a new genus for"Palaeocherus" meissneri mut.elaverensis Viret (1929) (in the rank of the speciesBransatochoerus elaverensis).
Celebochoerus cagayanensis^[105]	Sp. nov	Valid	Ingiccoin Ingiccoet al.	Middle Pleistocene	Awidon Mesa Formation	Philippines	A member ofSuidae.
Diplobunops kardoula^[106]	Sp. nov	Valid	Emery, Davis & Hopkins	Eocene (Duchesnean)		United States ( Oregon)	Anagriochoerid oreodont, a species ofDiplobunops.
Dorcatherium maliki^[107]	Sp. nov	Valid	Kostopoulos & Sen	Miocene (Vallesian)	Ergene Formation	Turkey	Achevrotain.
Fremdohyus^[108]	Gen. et comb. nov	Valid	Prothero	Arikareean	John Day Formation	United States ( Oregon)	Apeccary. A new genus for"Thinohyus" osmonti Sinclair (1905).
Honanotherium bernori^[109]	Sp. nov	Valid	Solounias & Danowitz	Late Miocene		Iran	A member ofGiraffidae, a species ofHonanotherium.
Magwetherium^[110]	Gen. et sp. nov	Valid	Ducrocqet al.	Eocene	Pondaung Formation	Myanmar	Adiacodexeid dichobunoid. The type species isMagwetherium burmense.
Megaloceros stavropolensis^[111]	Sp. nov	Valid	Titov & Shvyreva	Early Pleistocene (lateVillafranchian)		Russia ( Stavropol Krai)	Adeer. Originally described as a species ofMegaloceros; Croitor (2018) transferred this species to the genusArvernoceros.^[112]
Nabotherium^[113]	Gen. et comb. nov	Valid	Sileemet al.	Early Oligocene	Jebel Qatrani Formation	Egypt	Ananthracothere; a new genus for"Rhagatherium" aegyptiacum Andrews (1906).
Prolibytherium fusus^[114]	Sp. nov	Valid	Danowitz, Domalski & Solounias	Early Miocene		Pakistan	A member ofRuminantia, a species ofProlibytherium.
Protovis^[115]	Gen. et sp. nov	Valid	Wang, Li & Takeuchi	Pliocene	Zanda Basin	China	A relative of thesheep. The type species isProtovis himalayensis.
Retroporcus^[116]	Gen. et comb. nov	Valid	Pickford	Miocene		Austria France Germany India Pakistan Serbia Spain Switzerland Turkey	Atetraconodontine suid. The type species isRetroporcus complutensis Pickford & Laurent (2014); genus also contains"Conohyus" sindiensis Lydekker, 1884 andHyotherium soemmeringi matritensis Golpe-Posse, 1972 (recombined as a separate speciesRetroporcus matritensis). The generic name was originally published in an article from 2014,^[117] but without the diagnosis, necessitating its validation in a later publication.^[116]

Cetaceans

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Name	Novelty	Status	Authors	Age	Unit	Location	Notes
Acrophyseter robustus^[118]	Sp. nov	Valid^[119]	Lambert, Bianucci & De Muizon	Miocene (lateSerravallian–Tortonian)	Pisco Formation	Peru
Arktocara^[120]	Gen. et sp. nov	Valid	Boersma & Pyenson	Oligocene (probablyChattian)	Poul Creek Formation	United States ( Alaska)	A member ofPlatanistoidea related toAllodelphis. The type species isA. yakataga.
Awadelphis^[121]	Gen. et sp. nov	Valid	Murakami	Latest Miocene	Senhata Formation	Japan	A member ofInioidea. The type species isA. hirayamai.
Awamokoa^[122]	Gen. et sp. nov	Valid^[123]	Tanaka & Fordyce	Late Oligocene	Kokoamu Greensand	New Zealand	A member ofPlatanistoidea. The type species isA. tokarahi.
Chavinziphius^[124]	Gen. et sp. nov	Valid	Bianucciet al.	Late Miocene	Pisco Formation	Peru	Abeaked whale. The type species isC. maxillocristatus.
Chimuziphius^[124]	Gen. et sp. nov	Valid	Bianucciet al.	Late Miocene	Pisco Formation	Peru	Abeaked whale. The type species isC. coloradensis.
Dagonodum^[125]	Gen. et sp. nov	Valid	Ramassamy	Late Miocene	Gram Formation	Denmark	Abeaked whale. Genus includes new speciesD. mojnum.
Echovenator^[126]	Gen. et sp. nov	Valid	Churchillet al.	Late Oligocene	Chandler Bridge Formation	United States ( South Carolina)	A member ofXenorophidae. The type species isE. sandersi.
Fragilicetus^[127]	Gen. et sp. nov	Valid	Bisconti & Bosselaers	Early Pliocene	Kattendijk Sands	Belgium South Africa^[128]	A member ofBalaenopteridae showing a mix of morphological characters that is intermediate between those ofEschrichtiidae and those of Balaenopteridae. The type species isFragilicetus velponi.
Goedertius^[129]	Gen. et. sp. nov	Valid	Kimura & Barnes	Miocene (lateAquitanian)	Nye Formation	United States ( Oregon)	A member ofAllodelphinidae. The type species isGoedertius oregonensis.
Incakujira^[130]	Gen. et sp. nov	Valid	Marx & Kohno	Miocene	Pisco Formation	Peru	Arorqual. The type species isI. anillodefuego.
Mammalodon hakataramea^[131]	Sp. nov	Valid	Fordyce & Marx	Oligocene (Duntroonian, 27 Ma)	Kokoamu Greensand	New Zealand	A species ofMammalodon, a member ofMammalodontidae.
Matapanui^[132]^[133]	Gen. et sp. nov	Valid^[134]	Boessenecker & Fordyce	Oligocene (latest Whaingaroan, 28.1–27.3 Ma)	Kokoamu Greensand	New Zealand	A member ofEomysticetidae. The type species isM. waihao.
Mesoplodon posti^[135]	Sp. nov	Valid	Lambert & Louwye	Pliocene (Zanclean)		Belgium	Amesoplodont whale.
Metopocetus hunteri^[136]	Sp. nov	Valid	Marx, Bosselaers & Louwye	Miocene (lateTortonian)	Breda Formation	Netherlands	A member ofCetotheriidae, a species ofMetopocetus.
Mithridatocetus^[137]	Gen. et sp. et comb. nov	Valid	Gol'din & Startsev	Miocene (Tortonian)	Chersonian Formation	Ukraine Russia	A member ofCetotheriidae. Genus includes new speciesM. eichwaldi, as well as"Kurdalagonus" adygeicus Tarasenko & Lopatin (2012) and"Cetotherium" mayeri (anomen dubium).
Ninjadelphis^[129]	Gen. et. sp. nov	Valid	Kimura & Barnes	Miocene (lateBurdigalian)	Hiramatsu Formation	Japan	A member ofAllodelphinidae. The type species isNinjadelphis ujiharai.
Rayanistes^[138]	Gen. et sp. nov	Valid	Bebejet al.	Eocene (Lutetian)	Midawara Formation	Egypt	A member ofRemingtonocetidae. The type species isRayanistes afer.
Sitsqwayk^[139]	Gen. et sp. nov	Valid	Peredo & Uhen	Late Oligocene	Pysht Formation	United States ( Washington)	Abasal member ofChaeomysticeti. The type species isS. cornishorum.
Whakakai^[140]	Gen. et sp. nov	Valid	Tsai & Fordyce	Oligocene (Chattian)	Kokoamu Greensand	New Zealand	Abaleen whale. The type species isWhakakai waipata.
Zarhinocetus donnamatsonae^[129]	Sp. nov	Valid	Kimura & Barnes	Miocene (lateBurdigalian-earlyLanghian)	Astoria Formation	United States ( Washington)	A member ofAllodelphinidae.

Carnivorans

[edit]

Name	Novelty	Status	Authors	Age	Unit	Location	Notes
Actiocyon parverratis^[141]	Sp. nov	Valid	Smith, Czaplewski & Cifelli	Miocene (Barstovian)	Monarch Mill Formation	United States ( Nevada)	A simocyonineailurid (a relative of thered panda), a species ofActiocyon.
Alagtsavbaatar^[142]	Gen. et comb. nov	Valid	Egiet al.	Late Eocene	Ergilin Dzo Formation	Mongolia	A member ofFeliformia. The type species is"Stenoplesictis" indigenus Dashzeveg (1996).
Angelarctocyon^[143]	Gen. et comb. nov	Valid	Tomiya & Tseng	Eocene (Duchesnean)	Chambers Tuff	United States ( Texas)	Abear dog. The type species is"Miacis" australis Gustafson (1986).
Brevimalictis^[141]	Gen. et sp. nov	Valid	Smith, Czaplewski & Cifelli	Miocene (Barstovian)	Monarch Mill Formation	United States ( Nevada)	A member ofMustelidae of uncertain phylogenetic placement. The type species isBrevimalictis chikasha.
Cynarctus wangi^[144]	Sp. nov	Valid	Jasinski & Wallace	Middle Miocene	Choptank Formation	United States ( Maryland)	A member ofCanidae belonging to the subfamilyBorophaginae, a species ofCynarctus.
Enhydrictis hoffstetteri^[145]	Sp. nov	Valid	Geraads	Pleistocene		Algeria	Anotter-like member of theMustelidae.
Gustafsonia^[143]	Gen. et comb. nov	Valid	Tomiya & Tseng	Eocene (Chadronian)	Chambers Tuff	United States ( Texas)	Abear dog. The type species is"Miacis" cognitus Gustafson (1986).
Lontra weiri^[146]	Sp. nov	Valid	Prassack	Pliocene	Hagerman Fossil Beds	United States ( Idaho)	Anotter, a species ofLontra.
Lutraeximia^[147]	Gen. et sp. nov	Valid	Cherinet al.	Early Pleistocene (lateVillafranchian)		Azerbaijan^[148] Italy	Anotter. The type species isLutraeximia umbra.
Maofelis^[149]	Gen. et sp. nov	Valid	Averianovet al.	Middle-late Eocene	Youganwo Formation	China	A member ofNimravidae. The type species isMaofelis cantonensis.
Negodiaetictis^[141]	Gen. et sp. nov	Valid	Smith, Czaplewski & Cifelli	Miocene (Barstovian)	Monarch Mill Formation	United States ( Nevada)	A member ofMustelidae of uncertain phylogenetic placement. The type species isNegodiaetictis rugatrulleum.
Watay^[150]	Gen. et sp. nov	Valid	McLaughlin, Hopkins & Schmitz	Hemingfordian	Mascall Formation	United States ( Oregon)	A member ofMustelidae. The type species isW. tabutsigwii.

Rodents

[edit]

Name	Novelty	Status	Authors	Age	Unit	Location	Notes
Abudhabia abagensis^[151]	Sp. nov	Valid	Qiu & Li	Neogene		China	Agerbil related to members of the genusTaterillus.
Abudhabia wangi^[151]	Sp. nov	Valid	Qiu & Li	Neogene		China	Agerbil related to members of the genusTaterillus.
Allodistylomys^[151]	Gen. et sp. nov	Valid	Qiu & Li	Neogene		China	A member of the familyDistylomyidae. Genus includes new speciesA. stepposus.
Allohuaxiamys^[151]	Gen. et sp. nov	Valid	Qiu & Li	Neogene		China	A member of the familyMuridae. Genus includes new speciesA. gaotegeensis.
Ansomys borealis^[151]	Sp. nov	Valid	Qiu & Li	Neogene		China	A member of the familyAplodontiidae.
Ansomys lophodens^[151]	Sp. nov	Valid	Qiu & Li	Neogene		China	A member of the familyAplodontiidae.
Ansomys robustus^[151]	Sp. nov	Valid	Qiu & Li	Neogene		China	A member of the familyAplodontiidae.
Apatodemus^[152]	Gen. et sp. nov	Valid	Savorelli, Colombero & Masini	Miocene		Italy	A member ofMuridae. The type species isA. degiulii.
Argouburus^[153]	Gen. et sp. nov	Valid^[154]	Marivauxet al.	Early Oligocene	Samlat Formation	Western Sahara	Ananomalure. The type species isA. minutus.
Atlantocerus exilis^[151]	Sp. nov	Valid	Qiu & Li	Neogene		China	A relative of theBarbary ground squirrel.
Atlantocerus major^[151]	Sp. nov	Valid	Qiu & Li	Neogene		China	A relative of theBarbary ground squirrel.
Ayakozomys mandaltensis^[151]	Sp. nov	Valid	Qiu & Li	Neogene		China	Amuroid rodent belonging to the familyTachyoryctoididae.
Ayakozomys ultimus^[151]	Sp. nov	Valid	Qiu & Li	Neogene		China	Amuroid rodent belonging to the familyTachyoryctoididae.
Birkamys^[155]	Gen. et sp. nov	Valid	Sallam & Seiffert	Eocene (latePriabonian)	Jebel Qatrani Formation	Egypt	A member ofPhiomorpha of uncertain phylogenetic placement. The type species isBirkamys korai.
Borsodia mengensis^[151]	Sp. nov	Valid	Qiu & Li	Neogene		China	A member ofArvicolinae.
Brachyscirtetes tomidai^[156]	Sp. nov	Valid	Li	Late Miocene		China	A member ofDipodidae, a species ofBrachyscirtetes.
Chambiramys^[157]	Gen. et 2 sp. nov	Valid	Boivinet al.	Late Oligocene	Chambira Formation	Peru	Acaviomorph rodent of uncertain phylogenetic placement. The type species isC. sylvaticus; genus also includesC. shipiborum.
Chukimys^[158]	Gen. et sp. nov	Valid	Barbiereet al.	Late Pliocene	Brochero Formation	Argentina	A member ofSigmodontinae. The type species isC. favaloroi.
Colloides^[151]	Gen. et sp. nov	Valid	Qiu & Li	Neogene		China	Acricetid rodent. Genus includes new speciesC. xiaomingi.
Cricetodon fengi^[151]	Sp. nov	Valid	Qiu & Li	Neogene		China	Acricetid rodent.
Cricetodon fikreti^[159]	Sp. nov	Valid	Çinar Durgut & Ünay	Early Miocene		Turkey	A member ofCricetodontini.
Cricetodon magnesiensis^[159]	Sp. nov	Valid	Çinar Durgut & Ünay	Early Miocene		Turkey	A member ofCricetodontini.
Cricetodon sonidensis^[151]	Sp. nov	Valid	Qiu & Li	Neogene		China	Acricetid rodent.
Cricetodon trallesensis^[159]	Sp. nov	Valid	Çinar Durgut & Ünay	Early Miocene		Turkey	A member ofCricetodontini.
Cricetodon yapintiensis^[159]	Sp. nov	Valid	Çinar Durgut & Ünay	Early Miocene		Turkey	A member ofCricetodontini.
Dakhlamys^[153]	Gen. et sp. nov	Valid^[154]	Marivauxet al.	Early Oligocene	Samlat Formation	Western Sahara	A possible member ofZegdoumyidae. The type species isD. ultimus.
Dehmisciurus^[160]	Gen. et comb. nov	Valid	Marković, de Bruijn & Wessels	LateOligocene – EarlyMiocene		Austria Bosnia and Herzegovina Germany Serbia Spain Turkey	A member of the familySciuridae. The type species is"Ratufa" obtusidens Dehm (1950).
Dipoides mengensis^[151]	Sp. nov	Valid	Qiu & Li	Neogene		China	A member of the familyCastoridae.
Dipus nanus^[151]	Sp. nov	Valid	Qiu & Li	Neogene		China	A relative of thenorthern three-toed jerboa.
Dipus pliocenicus^[151]	Sp. nov	Valid	Qiu & Li	Neogene		China	A relative of thenorthern three-toed jerboa.
Dolocylindrodon^[161]	Gen. et 2 sp. et comb. nov	Valid	Korth & Tabrum	Eocene-Oligocene		United States ( Montana Texas Wyoming)	A member ofCylindrodontidae. The type species isD. vukae; genus also includes new speciesD. rahnensis, as well as"Pseudocylindrodon" medius Burke (1938),"Pseudocylindrodon" tobeyi Black (1970) and"Pseudocylindrodon" texanus Wood (1974).
Elfomys catalaunicus^[162]	Sp. nov	Valid	Bonilla-Salomónet al.	Eocene		Spain	A member ofTheridomyidae, a species ofElfomys.
Ellobius (Bramus) pomeli^[163]	Sp. nov	Valid	Tesakov	Early Middle Pleistocene	Arapi Formation	Armenia	A species ofEllobius.
Elymys ? emryi^[164]	Sp. nov	Valid	Kelly & Murphey	Eocene (earlyUintan)	Turtle Bluff Member,Bridger Formation	United States ( Wyoming)	A possible member ofDipodidae.
Eozapus major^[151]	Sp. nov	Valid	Qiu & Li	Neogene		China	A relative of theChinese jumping mouse.
Eucastor plionicus^[151]	Sp. nov	Valid	Qiu & Li	Neogene		China	A member of the familyCastoridae.
Eucricetodon wangae^[165]	Sp. nov	Valid	Li, Meng & Wang	Late Eocene		China	A member ofCricetidae, a species ofEucricetodon.
Eutypomys productus^[166]	Sp. nov	Valid	Korth	Oligocene (Whitneyan)		United States ( South Dakota)	A member of the familyEutypomyidae.
Geomys tyrioni^[167]	Sp. nov	Valid	Martin	Early Pleistocene	Meade Basin	United States ( Kansas)	Apocket gopher, a species ofGeomys.
Gliruloides^[168]	Gen. et sp. et comb. nov	Valid	Wuet al.	Late Oligocene to early Miocene	Junggar Basin	China Turkey	Adormouse related to theforest dormouse. The type species isGliruloides zhoui; genus also includes"Vasseuromys" duplex Ünay (1994).
Gobicricetodon arshanensis^[151]	Sp. nov	Valid	Qiu & Li	Neogene		China	Acricetid rodent.
Hylopetes bellus^[151]	Sp. nov	Valid	Qiu & Li	Neogene		China	Asquirrel, a species ofHylopetes.
Hylopetes yani^[151]	Sp. nov	Valid	Qiu & Li	Neogene		China	Asquirrel, a species ofHylopetes.
Hystricops mengensis^[151]	Sp. nov	Valid	Qiu & Li	Neogene		China	A member of the familyCastoridae.
Irtyshogaulus^[169]	Gen. et 2 sp. nov	Valid	Luet al.	Early Miocene	Junggar Basin	China	A member ofMylagaulidae belonging to the subfamilyPromylagaulinae. The type species isI. minor; genus also includesI. major.
Karnimatoides^[151]	Gen. et comb. nov	Valid	Qiu & Li	Neogene		China	A member ofMurinae. The type species isK. hipparionus (Schlosser, 1924).
Keramidomys magnus^[151]	Sp. nov	Valid	Qiu & Li	Neogene		China	A member of the familyEomyidae.
Khanomys^[151]	Gen. et 2 sp. nov	Valid	Qiu & Li	Neogene		China	Acricetid rodent. Genus includes new speciesK. baii andK. cheni.
Kowalskia shalaensis^[151]	Sp. nov	Valid	Qiu & Li	Neogene		China	Acricetid rodent.
Lagostomus telenkechanum^[170]	Sp. nov	Valid	Rasia & Candela	Late Miocene	Arroyo Chasicó Formation	Argentina	A species ofLagostomus.
Ligerimys asiaticus^[151]	Sp. nov	Valid	Qiu & Li	Neogene		China	A member of the familyEomyidae.
Loretomys^[157]	Gen. et sp. nov	Valid	Boivinet al.	Late Oligocene	Chambira Formation	Peru	Acaviomorph rodent belonging to the superfamilyOctodontoidea. The type species isL. minutus.
Megacricetodon hellenicus^[171]	Sp. nov	Valid	Oliver & Peláez-Campomanes	Early Miocene		Greece	Acricetid rodent, a species ofMegacricetodon.
Metaeucricetodon^[151]	Gen. et sp. nov	Valid	Qiu & Li	Neogene		China	Acricetid rodent. Genus includes new speciesM. mengicus.
Microtocricetus shalaensis^[151]	Sp. nov	Valid	Qiu & Li	Neogene		China	Acricetid rodent.
Microtoscoptes fahlbuschi^[151]	Sp. nov	Valid	Qiu & Li	Neogene		China	Acricetid rodent.
Mioheteromys subterior^[172]	Sp. nov	Valid	Korth & Evander	Miocene (earlyBarstovian)		United States ( Nebraska)	Aheteromyid rodent, a species ofMioheteromys.
Mimomys chandolensis^[173]	Sp. nov	Valid	Tiunov, Golenishchev & Voyta	Late Pleistocene		Russia ( Primorsky Krai)	Anarvicoline cricetid, a species ofMimomys.
Mimomys teilhardi^[151]	Sp. nov	Valid	Qiu & Li	Neogene		China	A member ofArvicolinae.
Minocastor^[174]	Gen. et sp. nov	Valid	Mörs, Tomida & Kalthoff	Early Miocene	Nakamura Formation	Japan	A member ofCastoridae. The type species isMinocastor godai.
Mubhammys^[155]	Gen. et sp. nov	Valid	Sallam & Seiffert	Eocene (latePriabonian)	Jebel Qatrani Formation	Egypt	A member ofPhiomorpha of uncertain phylogenetic placement. The type species isMubhammys vadumensis.
Myocricetodon tomidai^[175]	Sp. nov	Valid	Lindsay & Flynn	Early Miocene	Chitarwata Formation Vihowa Formation	Pakistan	A member ofCricetidae, a species ofMyocricetodon.
Mystemys^[176]	Gen. et sp. nov	Valid	Savorelli & Masini	Miocene		Italy	A member ofCricetidae. The type species isM. giganteus.
Neochoerus occidentalis^[177]	Sp. nov.	Valid	Carranza-Castañeda	LateBlancan-Irvingtonian		Mexico
Nonanomalurus parvus^[153]	Sp. nov	Valid^[154]	Marivauxet al.	Early Oligocene	Samlat Formation	Western Sahara	A member ofAnomaluroidea.
?Notoparamys blochi^[178]	Sp. nov	Valid	Gunnell, Zonneveld & Bartels	Wasatchian	Wasatch Formation	United States ( Wyoming)	A member ofIschyromyidae belonging to the subfamilyParamyinae, tentatively assigned to the genusNotoparamys.
Orientiglis^[151]	Gen. et comb. nov	Valid	Qiu & Li	Neogene		China	Adormouse related to members of the genusDryomys. Genus includesO. wuae (Qiu, 1996).
Oromys^[153]	Gen. et sp. nov	Valid^[154]	Marivauxet al.	Early Oligocene	Samlat Formation	Western Sahara	A member ofZenkerellinae. The type species isO. zenkerellinopsis.
Paciculus walshi^[179]	Sp. nov	Valid	Lindsayet al.	Oligocene	Otay Formation	United States ( California)	A member ofCricetidae, a species ofPaciculus.
Palaeosciurus aoerbanensis^[151]	Sp. nov	Valid	Qiu & Li	Neogene		China	Aground squirrel.
Palaeosteiromys^[157]	Gen. et sp. nov	Valid	Boivinet al.	Late Oligocene	Chambira Formation	Peru	ANew World porcupine. The type species isP. amazonensis.
Pappocricetodon siziwangqiensis^[165]	Sp. nov	Valid	Li, Meng & Wang	Late Eocene		China	A member ofCricetidae, a species ofPappocricetodon.
Paradelomys santjaumensis^[162]	Sp. nov	Valid	Bonilla-Salomónet al.	Eocene		Spain	A member ofTheridomyidae, a species ofParadelomys.
Paralactaga parvidens^[151]	Sp. nov	Valid	Qiu & Li	Neogene		China	A member ofDipodidae related to members of the genusAllactaga.
Paralactaga shalaensis^[151]	Sp. nov	Valid	Qiu & Li	Neogene		China	A member ofDipodidae related to members of the genusAllactaga.
Parameniscomys^[151]	Gen. et sp. nov	Valid	Qiu & Li	Neogene		China	A member of the familyAplodontiidae. Genus includes new speciesP. mengensis.
Paranomalurus riodeoroensis^[153]	Sp. nov	Valid^[154]	Marivauxet al.	Early Oligocene	Samlat Formation	Western Sahara	Ananomalure.
Paratheridomys^[180]	Gen. et comb. nov	Valid	Vianey-Liaud & Marivaux	Oligocene		Belgium France Germany Switzerland	A member ofTheridomyidae. The type species is"Theridomys" ludensis Vianey-Liaud (1985); genus also includesP. margaritae (Vianey-Liaud, 1989) andP. vassoni (Pomel, 1853).
Pentabuneomys fejfari^[151]	Sp. nov	Valid	Qiu & Li	Neogene		China	A member of the familyEomyidae.
Plesiodipus robustus^[151]	Sp. nov	Valid	Qiu & Li	Neogene		China	Acricetid rodent.
Plesiosciurus zhengi^[181]	Sp. nov	Valid	Qiu & Jin	Cenozoic (probably Miocene)		China	A member ofSciurini.
Plesiosteiromys^[157]	Gen. et sp. nov	Valid	Boivinet al.	Late Oligocene	Chambira Formation	Peru	Acaviomorph rodent, possibly aNew World porcupine. The type species isP. newelli.
Postcopemys chapalensis^[182]	Sp. nov	Valid	Rincónet al.	EarlyPliocene	Chapala Formation	Mexico	A member ofCricetidae.
Potamarchus adamiae^[183]	Sp. nov	Valid	Kerberet al.	Late Miocene	Solimões Formation	Brazil	A potamarchinedinomyid, a species ofPotamarchus.
Potwarmus mahmoodi^[175]	Sp. nov	Valid	Lindsay & Flynn	Early Miocene	Vihowa Formation	Pakistan	A member ofCricetidae, a species ofPotwarmus.
Primus cheemai^[175]	Sp. nov	Valid	Lindsay & Flynn	Late Oligocene to Early Miocene	Chitarwata Formation Vihowa Formation	Pakistan	A member ofCricetidae, a species ofPrimus.
Proansomys badamae^[184]	Sp. nov	Valid	Maridetet al.	Late Oligocene	Hsanda Gol Formation	Mongolia	A member ofAplodontiidae.
Prodistylomys mengensis^[151]	Sp. nov	Valid	Qiu & Li	Neogene		China	A member of the familyDistylomyidae.
Progonomys shalaensis^[151]	Sp. nov	Valid	Qiu & Li	Neogene		China	A member of the familyMuridae.
Protalactaga lophodens^[151]	Sp. nov	Valid	Qiu & Li	Neogene		China	A member ofDipodidae related to members of the genusAllactaga.
Pseudaplodon amuwusuensis^[151]	Sp. nov	Valid	Qiu & Li	Neogene		China	A member of the familyAplodontiidae.
Pseudopotamarchus^[183]	Gen. et sp. nov	Valid	Kerberet al.	Late Miocene	Solimões Formation	Brazil	A potamarchinedinomyid. The type species isPseudopotamarchus villanuevai.
Pseudoratufa^[181]	Gen. et sp. nov	Valid	Qiu & Jin	Cenozoic (probably Miocene)		China	A relative of theoriental giant squirrels. The type species isP. wanensis.
Quadrimys^[151]	Gen. et sp. nov	Valid	Qiu & Li	Neogene		China	A member of the familyAplodontiidae. Genus includes new speciesQ. paradoxus.
Rhinocerodon abagensis^[151]	Sp. nov	Valid	Qiu & Li	Neogene		China	Acricetid rodent.
Sayimys negevensis^[185]	Sp. nov	Valid	López-Antoñanzaset al.	Early Miocene	MiddleHatzeva Formation	Israel	Agundi, a species ofSayimys.
Scleromys praecursor^[157]	Sp. nov	Valid	Boivinet al.	Late Oligocene	Chambira Formation	Peru	Acaviomorph rodent belonging to the superfamilyChinchilloidea. Originally described as a species ofScleromys; subsequently made the type species of a separate genusMaquiamys.^[186]
Sicista bilikeensis^[151]	Sp. nov	Valid	Qiu & Li	Neogene		China	Abirch mouse.
Sicista ertemteensis^[151]	Sp. nov	Valid	Qiu & Li	Neogene		China	Abirch mouse.
Sinozapus parvus^[151]	Sp. nov	Valid	Qiu & Li	Neogene		China	Ajumping mouse.
Sonidomys^[151]	Gen. et sp. nov	Valid	Qiu & Li	Neogene		China	Acricetid rodent. Genus includes new speciesS. deligeri.
Spermophilinus mongolicus^[151]	Sp. nov	Valid	Qiu & Li	Neogene		China	A relative of thechipmunks.
Tachyoryctoides colossus^[151]	Sp. nov	Valid	Qiu & Li	Neogene		China	Amuroid rodent belonging to the familyTachyoryctoididae.
Tachyoryctoides vulgatus^[151]	Sp. nov	Valid	Qiu & Li	Neogene		China	Amuroid rodent belonging to the familyTachyoryctoididae.
Tamiops minor^[151]	Sp. nov	Valid	Qiu & Li	Neogene		China	AnAsiatic striped squirrel.
Ucayalimys^[157]	Gen. et sp. nov	Valid	Boivinet al.	Late Oligocene	Chambira Formation	Peru	Acaviomorph rodent, possibly a member of the superfamilyChinchilloidea. The type species isU. crassidens.
Ullumys^[187]	Gen. et sp. et comb. nov	Valid	Olivareset al.	Miocene (Huayquerian)	Las Tapias Formation	Argentina	A member ofEchimyidae. Genus includes new speciesU. pattoni, as well as"Eumysops" intermedius Rovereto.

Primates

[edit]

Name	Novelty	Status	Authors	Age	Unit	Location	Notes
Agerinia smithorum^[188]	Sp. nov	Valid	Femenias-Gualet al.	Early Eocene		Spain
Apidium zuetina^[189]	Sp. nov	Valid	Beardet al.	Early Oligocene		Libya	A species ofApidium.
Bahinia banyueae^[190]	Sp. nov	Valid	Niet al.	Early Oligocene	Caijiachong Formation	China	A member ofEosimiidae, a species ofBahinia.
Canaanimico^[191]	Gen. et sp. nov	Valid	Marivauxet al.	Late Oligocene	Chambira Formation	Peru	ANew World monkey related toSoriacebus. The type species isC. amazonensis.
Cantius lohseorum^[192]	Sp. nov	Valid	Robinson	Early Eocene	Powder River Basin	United States ( Wyoming)	A member ofNotharctidae.
Gatanthropus^[190]	Gen. et sp. nov	Valid	Niet al.	Early Oligocene	Caijiachong Formation	China	A relative ofEkgmowechashala. The type species isGatanthropus micros.
Laomaki^[190]	Gen. et sp. nov	Valid	Niet al.	Early Oligocene	Caijiachong Formation	China	A member ofAdapiformes belonging to the familySivaladapidae. The type species isLaomaki yunnanensis.
Megaceralemur^[192]	Gen. et comb. et sp. nov	Valid	Robinson	Eocene		United States ( Wyoming)	A member ofNotharctidae. A new genus for"Pelycodus" trigonodus Matthew (1915); genus also includes new speciesM. matthewi.
Oligotarsius^[190]	Gen. et sp. nov	Valid	Niet al.	Early Oligocene	Caijiachong Formation	China	Atarsier-like primate. The type species isOligotarsius rarus.
Panamacebus^[193]	Gen. et sp. nov	Valid	Blochet al.	Early Miocene	Las Cascadas Formation	Panama	ANew World monkey, probably a member ofCebidae. The type species isPanamacebus transitus.
Pinolophus^[192]	Gen. et sp. nov	Valid	Robinson	Eocene		United States ( Wyoming)	A member ofNotharctidae. The type speciesP. meikei.
Semnopithecus gwebinensis^[194]	Sp. nov	Valid	Takaiet al.	Late Pliocene		Myanmar	Agray langur.
Yunnanadapis^[190]	Gen. et 2 sp. nov	Valid	Niet al.	Early Oligocene	Caijiachong Formation	China	A member ofAdapiformes belonging to the familySivaladapidae. The type species isYunnanadapis folivorus; genus also includesYunnanadapis imperator.

Other eutherians

[edit]

Name	Novelty	Status	Authors	Age	Unit	Location	Notes
Akhnatenavus nefertiticyon^[195]	Sp. nov	Valid	Borths, Holroyd & Seiffert	Eocene (latestPriabonian)	Jebel Qatrani Formation	Egypt	Ahyainailourine hyaenodont.
Amphilagus tomidai^[196]	Sp. nov	Valid	Erbajeva, Angelone & Alexeeva	Miocene		Russia ( Irkutsk Oblast)	Alagomorph, a species ofAmphilagus.
Antesorex wilsoni^[172]	Sp. nov	Valid	Korth & Evander	Miocene (earlyBarstovian)		United States ( Nebraska)	Ashrew, a species ofAntesorex.
Belgoryctes^[197]	Gen. et sp. nov	Valid	De Bast & Smith	Paleocene	Hainin Formation	Belgium	A member ofPalaeoryctidae. The type species isB. thaleri.
Brychotherium^[195]	Gen. et sp. nov	Valid	Borths, Holroyd & Seiffert	Eocene (latestPriabonian)	Jebel Qatrani Formation	Egypt	Ateratodontine hyaenodont. The type species isB. ephalmos.
Cambaytherium gracilis^[198]	Sp. nov	Valid	Smithet al.	Eocene (Ypresian)	Cambay Shale Formation	India	Aperissodactyl-likeungulate.
Cingulodon^[197]	Gen. et sp. nov	Valid	De Bast & Smith	Paleocene	Hainin Formation	Belgium	An eutherian of uncertain phylogenetic placement, possibly a member of the familyLouisinidae. The type species isC. magioncaldai.
Eoictops^[178]	Gen. et sp. nov	Valid	Gunnell, Zonneveld & Bartels	Wasatchian	Wasatch Formation	United States ( Wyoming)	A member ofLeptictida belonging to the familyLeptictidae. The type species isE. novaceki.
Eurolestes^[197]	Gen. et sp. nov	Valid	De Bast & Smith	Paleocene	Hainin Formation	Belgium	A member ofPantolesta belonging to the familyPentacodontidae. The type species isE. dupuisi.
Gomphos progressus^[199]	Sp. nov	Valid	Li, Wang & Fostowicz-Frelik	Eocene (Irdinmanhan)	Ulan Shireh Formation	China	A member ofGlires belonging to the familyMimotonidae.
Hegetotherium cerdasensis^[200]	Sp. nov	Valid	Croftet al.	Miocene (Langhian)	Cerdas beds	Bolivia	Anotoungulate, a species ofHegetotherium.
Indoesthonyx^[198]	Gen. et sp. nov	Valid	Smithet al.	Eocene (Ypresian)	Cambay Shale Formation	India	A member ofTillodontia. The type species isI. suratensis.
Lanthanotherium observatum^[172]	Sp. nov	Valid	Korth & Evander	Miocene (earlyBarstovian)		United States ( Nebraska)	A member ofErinaceidae, a species ofLanthanotherium.
Mina^[201]^[202]	Gen. et sp. nov	Valid	Liet al.	Middle Paleocene	Wanghudun Formation	China	Abasal member ofGlires. The type species isMina hui.
Ounalashkastylus^[203]	Gen. et sp. nov	Valid	Chibaet al.	Miocene		United States ( Alaska)	Adesmostylian. The type species isOunalashkastylus tomidai.
Palaeictops altimontis^[204]	Sp. nov	Valid	Velazco & Novacek	Eocene (Uintan)	Tepee Trail Formation	United States ( Wyoming)	A member ofLeptictida belonging to the familyLeptictidae.
Palaeictops robustus^[204]	Sp. nov	Valid	Velazco & Novacek	Eocene (Uintan)	Uinta Formation	United States ( Utah)	A member ofLeptictida belonging to the familyLeptictidae.
Palaeosinopa lacus^[178]	Sp. nov	Valid	Gunnell, Zonneveld & Bartels	Wasatchian	Wasatch Formation	United States ( Wyoming)	A member ofPantolestidae.
Pternoconius bondi^[205]	Sp. nov	Valid	Cheme Arriaga, Dozo & Gelfo	Miocene (Colhuehuapian)	Sarmiento Formation	Argentina	A member ofLitopterna belonging to the familyMacraucheniidae and the subfamilyCramaucheniinae.
Ptilocercus kylin^[206]	Sp. nov	Valid	Li & Ni	Earliest Oligocene	Lijiawa Mammalian Fossil locality	China	Atreeshrew related to thepen-tailed treeshrew.
Purgatorius pinecreeensis^[207]	Sp. nov	Valid	Scott, Fox & Redman	Paleocene (Puercan)	Ravenscrag Formation	Canada ( Saskatchewan)
Quadratodon^[197]	Gen. et sp. nov	Valid	De Bast & Smith	Paleocene	Hainin Formation	Belgium	An eutherian of uncertain phylogenetic placement, possibly a member ofErinaceomorpha. The type species isQ. sigei.
Rzebikia^[208]	Gen. et comb. nov	Valid	Sansalone, Kotsakis & Piras	Pliocene to Pleistocene (Villanyian)		Bulgaria Poland	A relative of theAmerican shrew mole. A new genus for"Neurotrichus" polonicus Skoczeń (1980) and"Neurotrichus" skoczeni Zijlstra (2010).
Sanshuilophus^[209]	Gen. et sp. nov	Valid	Maoet al.	Early Eocene	Huayong Formation	China	A member ofPhenacolophidae (a group of archaicungulate mammals of uncertain phylogenetic placement). The type species isSanshuilophus zhaoi.
Scalopoides hutchisoni^[172]	Sp. nov	Valid	Korth & Evander	Miocene (earlyBarstovian)		United States ( Nebraska)	A member ofTalpidae, a species ofScalopoides.
Trachytherus ramirezi^[210]	Sp. nov	Valid	Shockey, Billet & Salas-Gismondi	Oligocene (Deseadan)	Moquegua Formation	Peru	Amesotheriid notoungulate, a species ofTrachytherus.
Vassacyon prieuri^[211]	Sp. nov	Valid	Soléet al.	Latest Paleocene		France	Abasal member ofCarnivoraformes, a species ofVassacyon.
Zofialestes^[212]	Gen. et sp. nov	Valid	Fostowicz-Frelik	Late Cretaceous (?late Campanian)	Barun Goyot Formation	Mongolia	A relative ofZalambdalestes. The type species isZ. longidens.

Other mammals

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Research

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A study on the differences in cusp arrangement on the surface ofmolars ofMorganucodon andKuehneotherium and its impact on ability of the teeth to fracture prey is published by Conithet al. (2016).^[213]
Description of a new specimen ofKollikodon ritchiei and a study of its phylogenetic relationships is published by Pianet al. (2016).^[214]
A redescription ofTeinolophos trusleri is published by Richet al. (2016).^[215]
A study comparing the skull anatomy of the extantplatypus and theMioceneObdurodon dicksoni is published by Asaharaet al. (2016).^[216]
A partialmandible of theamphitheriidPalaeoxonodon ooliticus, previously known only from isolated teeth, is described from the Middle Jurassic (lateBathonian)Kilmaluag Formation (Isle ofSkye,Scotland, United Kingdom) by Closeet al. (2016).^[217]
A study on the morphological disparity, dietary trends and generic level taxonomic diversity patterns in earlytherians is published by Grossnickle & Newham (2016).^[218]

New taxa

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Name	Novelty	Status	Authors	Age	Unit	Location	Notes
Anebodon^[219]	Gen. et sp. nov	Valid	Biet al.	Early Cretaceous	Yixian Formation	China	Asymmetrodont belonging to the familyZhangheotheriidae. The type species isA. luoi.
Cherwellia^[220]	Gen. et sp. nov	Valid	Butler & Sigogneau-Russell	Middle Jurassic (lateBathonian)		United Kingdom	A possible member ofMorganucodonta. The type species isC. leei.
Culicolestes^[221]	Gen. et sp. nov	Valid	Cifelli, Cohen & Davis	Late Cretaceous (Cenomanian)	Cedar Mountain Formation	United States ( Utah)	A member ofTribosphenida of uncertain phylogenetic placement. The type species isC. kielanae.
Dakotadens pertritus^[221]	Sp. nov	Valid	Cifelli, Cohen & Davis	Late Cretaceous (Cenomanian)	Cedar Mountain Formation	United States ( Utah)	A member ofTribosphenida of uncertain phylogenetic placement.
Eotriconodon^[220]	Gen. et sp. nov	Valid	Butler & Sigogneau-Russell	Middle Jurassic (lateBathonian)		United Kingdom	A member ofTriconodontidae. The type species isE. sophron.
Gobiconodon bathoniensis^[220]	Sp. nov	Valid	Butler & Sigogneau-Russell	Middle Jurassic (lateBathonian)		United Kingdom
Lactodens^[222]	Gen. et sp. nov	Valid	Han & Meng	Early Cretaceous		China	A ‘symmetrodont’ related toSpalacolestes. Genus includes new speciesL. sheni.
Mangasbaatar^[223]	Gen. et sp. nov	Valid	Rougieret al.	Late Cretaceous (probably lateCampanian)		Mongolia	Adjadochtatheriid multituberculate. The type species isM. udanii.
Morganucodon tardus^[220]	Sp. nov	Valid	Butler & Sigogneau-Russell	Middle Jurassic (lateBathonian)		United Kingdom
Phascolotherium simpsoni^[220]	Sp. nov	Valid	Butler & Sigogneau-Russell	Middle Jurassic (lateBathonian)		United Kingdom	A member ofEutriconodonta.
Stylidens^[220]	Gen. et sp. nov	Valid	Butler & Sigogneau-Russell	Middle Jurassic (lateBathonian)		United Kingdom	A possible member ofMorganucodonta. The type species isS. hookeri.
Teutonodon^[224]	Gen. et sp. nov	Valid	Martinet al.	Late Jurassic (Kimmeridgian)		Germany	Aplagiaulacid multituberculate. The type species isT. langenbergensis.
Theroteinus rosieriensis^[225]	Sp. nov	Valid	Debuysschere	Late Triassic (Rhaetian)		France	A member ofHaramiyida belonging to the familyTheroteinidae.